/***** * SPC7110 emulator - version 0.03 (2008-08-10) * Copyright (c) 2008, byuu and neviksti * * Permission to use, copy, modify, and/or distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * The software is provided "as is" and the author disclaims all warranties * with regard to this software including all implied warranties of * merchantibility and fitness, in no event shall the author be liable for * any special, direct, indirect, or consequential damages or any damages * whatsoever resulting from loss of use, data or profits, whether in an * action of contract, negligence or other tortious action, arising out of * or in connection with the use or performance of this software. *****/ #ifdef _SPC7110EMU_CPP_ uint8 SPC7110Decomp::read() { if(decomp_buffer_length == 0) { //decompress at least (decomp_buffer_size / 2) bytes to the buffer switch(decomp_mode) { case 0: mode0(false); break; case 1: mode1(false); break; case 2: mode2(false); break; default: return 0x00; } } uint8 data = decomp_buffer[decomp_buffer_rdoffset++]; decomp_buffer_rdoffset &= decomp_buffer_size - 1; decomp_buffer_length--; return data; } void SPC7110Decomp::write(uint8 data) { decomp_buffer[decomp_buffer_wroffset++] = data; decomp_buffer_wroffset &= decomp_buffer_size - 1; decomp_buffer_length++; } uint8 SPC7110Decomp::dataread() { unsigned size = memory_cartrom_size() > 0x500000 ? memory_cartrom_size() - 0x200000 : memory_cartrom_size() - 0x100000; while(decomp_offset >= size) decomp_offset -= size; return memory_cartrom_read(0x100000 + decomp_offset++); } void SPC7110Decomp::init(unsigned mode, unsigned offset, unsigned index) { decomp_mode = mode; decomp_offset = offset; decomp_buffer_rdoffset = 0; decomp_buffer_wroffset = 0; decomp_buffer_length = 0; //reset context states for(unsigned i = 0; i < 32; i++) { context[i].index = 0; context[i].invert = 0; } switch(decomp_mode) { case 0: mode0(true); break; case 1: mode1(true); break; case 2: mode2(true); break; } //decompress up to requested output data index while(index--) read(); } // void SPC7110Decomp::mode0(bool init) { static uint8 val, in, span; static int out, inverts, lps, in_count; if(init == true) { out = inverts = lps = 0; span = 0xff; val = dataread(); in = dataread(); in_count = 8; return; } while(decomp_buffer_length < (decomp_buffer_size >> 1)) { for(unsigned bit = 0; bit < 8; bit++) { //get context uint8 mask = (1 << (bit & 3)) - 1; uint8 con = mask + ((inverts & mask) ^ (lps & mask)); if(bit > 3) con += 15; //get prob and mps unsigned prob = probability(con); unsigned mps = (((out >> 15) & 1) ^ context[con].invert); //get bit unsigned flag_lps; if(val <= span - prob) { //mps span = span - prob; out = (out << 1) + mps; flag_lps = 0; } else { //lps val = val - (span - (prob - 1)); span = prob - 1; out = (out << 1) + 1 - mps; flag_lps = 1; } //renormalize unsigned shift = 0; while(span < 0x7f) { shift++; span = (span << 1) + 1; val = (val << 1) + (in >> 7); in <<= 1; if(--in_count == 0) { in = dataread(); in_count = 8; } } //update processing info lps = (lps << 1) + flag_lps; inverts = (inverts << 1) + context[con].invert; //update context state if(flag_lps & toggle_invert(con)) context[con].invert ^= 1; if(flag_lps) context[con].index = next_lps(con); else if(shift) context[con].index = next_mps(con); } //save byte write(out); } } void SPC7110Decomp::mode1(bool init) { static unsigned pixelorder[4], realorder[4]; static uint8 in, val, span; static int out, inverts, lps, in_count; if(init == true) { for(unsigned i = 0; i < 4; i++) pixelorder[i] = i; out = inverts = lps = 0; span = 0xff; val = dataread(); in = dataread(); in_count = 8; return; } while(decomp_buffer_length < (decomp_buffer_size >> 1)) { for(unsigned pixel = 0; pixel < 8; pixel++) { //get first symbol context unsigned a = ((out >> (1 * 2)) & 3); unsigned b = ((out >> (7 * 2)) & 3); unsigned c = ((out >> (8 * 2)) & 3); unsigned con = (a == b) ? (b != c) : (b == c) ? 2 : 4 - (a == c); //update pixel order unsigned m, n; for(m = 0; m < 4; m++) if(pixelorder[m] == a) break; for(n = m; n > 0; n--) pixelorder[n] = pixelorder[n - 1]; pixelorder[0] = a; //calculate the real pixel order for(m = 0; m < 4; m++) realorder[m] = pixelorder[m]; //rotate reference pixel c value to top for(m = 0; m < 4; m++) if(realorder[m] == c) break; for(n = m; n > 0; n--) realorder[n] = realorder[n - 1]; realorder[0] = c; //rotate reference pixel b value to top for(m = 0; m < 4; m++) if(realorder[m] == b) break; for(n = m; n > 0; n--) realorder[n] = realorder[n - 1]; realorder[0] = b; //rotate reference pixel a value to top for(m = 0; m < 4; m++) if(realorder[m] == a) break; for(n = m; n > 0; n--) realorder[n] = realorder[n - 1]; realorder[0] = a; //get 2 symbols for(unsigned bit = 0; bit < 2; bit++) { //get prob unsigned prob = probability(con); //get symbol unsigned flag_lps; if(val <= span - prob) { //mps span = span - prob; flag_lps = 0; } else { //lps val = val - (span - (prob - 1)); span = prob - 1; flag_lps = 1; } //renormalize unsigned shift = 0; while(span < 0x7f) { shift++; span = (span << 1) + 1; val = (val << 1) + (in >> 7); in <<= 1; if(--in_count == 0) { in = dataread(); in_count = 8; } } //update processing info lps = (lps << 1) + flag_lps; inverts = (inverts << 1) + context[con].invert; //update context state if(flag_lps & toggle_invert(con)) context[con].invert ^= 1; if(flag_lps) context[con].index = next_lps(con); else if(shift) context[con].index = next_mps(con); //get next context con = 5 + (con << 1) + ((lps ^ inverts) & 1); } //get pixel b = realorder[(lps ^ inverts) & 3]; out = (out << 2) + b; } //turn pixel data into bitplanes unsigned data = morton_2x8(out); write(data >> 8); write(data >> 0); } } void SPC7110Decomp::mode2(bool init) { static unsigned pixelorder[16], realorder[16]; static uint8 bitplanebuffer[16], buffer_index; static uint8 in, val, span; static int out0, out1, inverts, lps, in_count; if(init == true) { for(unsigned i = 0; i < 16; i++) pixelorder[i] = i; buffer_index = 0; out0 = out1 = inverts = lps = 0; span = 0xff; val = dataread(); in = dataread(); in_count = 8; return; } while(decomp_buffer_length < (decomp_buffer_size >> 1)) { for(unsigned pixel = 0; pixel < 8; pixel++) { //get first symbol context unsigned a = ((out0 >> (0 * 4)) & 15); unsigned b = ((out0 >> (7 * 4)) & 15); unsigned c = ((out1 >> (0 * 4)) & 15); unsigned con = 0; unsigned refcon = (a == b) ? (b != c) : (b == c) ? 2 : 4 - (a == c); //update pixel order unsigned m, n; for(m = 0; m < 16; m++) if(pixelorder[m] == a) break; for(n = m; n > 0; n--) pixelorder[n] = pixelorder[n - 1]; pixelorder[0] = a; //calculate the real pixel order for(m = 0; m < 16; m++) realorder[m] = pixelorder[m]; //rotate reference pixel c value to top for(m = 0; m < 16; m++) if(realorder[m] == c) break; for(n = m; n > 0; n--) realorder[n] = realorder[n - 1]; realorder[0] = c; //rotate reference pixel b value to top for(m = 0; m < 16; m++) if(realorder[m] == b) break; for(n = m; n > 0; n--) realorder[n] = realorder[n - 1]; realorder[0] = b; //rotate reference pixel a value to top for(m = 0; m < 16; m++) if(realorder[m] == a) break; for(n = m; n > 0; n--) realorder[n] = realorder[n - 1]; realorder[0] = a; //get 4 symbols for(unsigned bit = 0; bit < 4; bit++) { //get prob unsigned prob = probability(con); //get symbol unsigned flag_lps; if(val <= span - prob) { //mps span = span - prob; flag_lps = 0; } else { //lps val = val - (span - (prob - 1)); span = prob - 1; flag_lps = 1; } //renormalize unsigned shift = 0; while(span < 0x7f) { shift++; span = (span << 1) + 1; val = (val << 1) + (in >> 7); in <<= 1; if(--in_count == 0) { in = dataread(); in_count = 8; } } //update processing info lps = (lps << 1) + flag_lps; unsigned invertbit = context[con].invert; inverts = (inverts << 1) + invertbit; //update context state if(flag_lps & toggle_invert(con)) context[con].invert ^= 1; if(flag_lps) context[con].index = next_lps(con); else if(shift) context[con].index = next_mps(con); //get next context con = mode2_context_table[con][flag_lps ^ invertbit] + (con == 1 ? refcon : 0); } //get pixel b = realorder[(lps ^ inverts) & 0x0f]; out1 = (out1 << 4) + ((out0 >> 28) & 0x0f); out0 = (out0 << 4) + b; } //convert pixel data into bitplanes unsigned data = morton_4x8(out0); write(data >> 24); write(data >> 16); bitplanebuffer[buffer_index++] = data >> 8; bitplanebuffer[buffer_index++] = data >> 0; if(buffer_index == 16) { for(unsigned i = 0; i < 16; i++) write(bitplanebuffer[i]); buffer_index = 0; } } } // const uint8 SPC7110Decomp::evolution_table[53][4] = { //{ prob, nextlps, nextmps, toggle invert }, { 0x5a, 1, 1, 1 }, { 0x25, 6, 2, 0 }, { 0x11, 8, 3, 0 }, { 0x08, 10, 4, 0 }, { 0x03, 12, 5, 0 }, { 0x01, 15, 5, 0 }, { 0x5a, 7, 7, 1 }, { 0x3f, 19, 8, 0 }, { 0x2c, 21, 9, 0 }, { 0x20, 22, 10, 0 }, { 0x17, 23, 11, 0 }, { 0x11, 25, 12, 0 }, { 0x0c, 26, 13, 0 }, { 0x09, 28, 14, 0 }, { 0x07, 29, 15, 0 }, { 0x05, 31, 16, 0 }, { 0x04, 32, 17, 0 }, { 0x03, 34, 18, 0 }, { 0x02, 35, 5, 0 }, { 0x5a, 20, 20, 1 }, { 0x48, 39, 21, 0 }, { 0x3a, 40, 22, 0 }, { 0x2e, 42, 23, 0 }, { 0x26, 44, 24, 0 }, { 0x1f, 45, 25, 0 }, { 0x19, 46, 26, 0 }, { 0x15, 25, 27, 0 }, { 0x11, 26, 28, 0 }, { 0x0e, 26, 29, 0 }, { 0x0b, 27, 30, 0 }, { 0x09, 28, 31, 0 }, { 0x08, 29, 32, 0 }, { 0x07, 30, 33, 0 }, { 0x05, 31, 34, 0 }, { 0x04, 33, 35, 0 }, { 0x04, 33, 36, 0 }, { 0x03, 34, 37, 0 }, { 0x02, 35, 38, 0 }, { 0x02, 36, 5, 0 }, { 0x58, 39, 40, 1 }, { 0x4d, 47, 41, 0 }, { 0x43, 48, 42, 0 }, { 0x3b, 49, 43, 0 }, { 0x34, 50, 44, 0 }, { 0x2e, 51, 45, 0 }, { 0x29, 44, 46, 0 }, { 0x25, 45, 24, 0 }, { 0x56, 47, 48, 1 }, { 0x4f, 47, 49, 0 }, { 0x47, 48, 50, 0 }, { 0x41, 49, 51, 0 }, { 0x3c, 50, 52, 0 }, { 0x37, 51, 43, 0 }, }; const uint8 SPC7110Decomp::mode2_context_table[32][2] = { //{ next 0, next 1 }, { 1, 2 }, { 3, 8 }, { 13, 14 }, { 15, 16 }, { 17, 18 }, { 19, 20 }, { 21, 22 }, { 23, 24 }, { 25, 26 }, { 25, 26 }, { 25, 26 }, { 25, 26 }, { 25, 26 }, { 27, 28 }, { 29, 30 }, { 31, 31 }, { 31, 31 }, { 31, 31 }, { 31, 31 }, { 31, 31 }, { 31, 31 }, { 31, 31 }, { 31, 31 }, { 31, 31 }, { 31, 31 }, { 31, 31 }, { 31, 31 }, { 31, 31 }, { 31, 31 }, { 31, 31 }, { 31, 31 }, { 31, 31 }, }; uint8 SPC7110Decomp::probability (unsigned n) { return evolution_table[context[n].index][0]; } uint8 SPC7110Decomp::next_lps (unsigned n) { return evolution_table[context[n].index][1]; } uint8 SPC7110Decomp::next_mps (unsigned n) { return evolution_table[context[n].index][2]; } uint8 SPC7110Decomp::toggle_invert(unsigned n) { return evolution_table[context[n].index][3]; } unsigned SPC7110Decomp::morton_2x8(unsigned data) { //reverse morton lookup: de-interleave two 8-bit values //15, 13, 11, 9, 7, 5, 3, 1 -> 15- 8 //14, 12, 10, 8, 6, 4, 2, 0 -> 7- 0 return morton16[0][(data >> 0) & 255] + morton16[1][(data >> 8) & 255]; } unsigned SPC7110Decomp::morton_4x8(unsigned data) { //reverse morton lookup: de-interleave four 8-bit values //31, 27, 23, 19, 15, 11, 7, 3 -> 31-24 //30, 26, 22, 18, 14, 10, 6, 2 -> 23-16 //29, 25, 21, 17, 13, 9, 5, 1 -> 15- 8 //28, 24, 20, 16, 12, 8, 4, 0 -> 7- 0 return morton32[0][(data >> 0) & 255] + morton32[1][(data >> 8) & 255] + morton32[2][(data >> 16) & 255] + morton32[3][(data >> 24) & 255]; } // void SPC7110Decomp::reset() { //mode 3 is invalid; this is treated as a special case to always return 0x00 //set to mode 3 so that reading decomp port before starting first decomp will return 0x00 decomp_mode = 3; decomp_buffer_rdoffset = 0; decomp_buffer_wroffset = 0; decomp_buffer_length = 0; } SPC7110Decomp::SPC7110Decomp() { decomp_buffer = new uint8[decomp_buffer_size]; reset(); //initialize reverse morton lookup tables for(unsigned i = 0; i < 256; i++) { #define map(x, y) (((i >> x) & 1) << y) //2x8-bit morton16[1][i] = map(7, 15) + map(6, 7) + map(5, 14) + map(4, 6) + map(3, 13) + map(2, 5) + map(1, 12) + map(0, 4); morton16[0][i] = map(7, 11) + map(6, 3) + map(5, 10) + map(4, 2) + map(3, 9) + map(2, 1) + map(1, 8) + map(0, 0); //4x8-bit morton32[3][i] = map(7, 31) + map(6, 23) + map(5, 15) + map(4, 7) + map(3, 30) + map(2, 22) + map(1, 14) + map(0, 6); morton32[2][i] = map(7, 29) + map(6, 21) + map(5, 13) + map(4, 5) + map(3, 28) + map(2, 20) + map(1, 12) + map(0, 4); morton32[1][i] = map(7, 27) + map(6, 19) + map(5, 11) + map(4, 3) + map(3, 26) + map(2, 18) + map(1, 10) + map(0, 2); morton32[0][i] = map(7, 25) + map(6, 17) + map(5, 9) + map(4, 1) + map(3, 24) + map(2, 16) + map(1, 8) + map(0, 0); #undef map } } SPC7110Decomp::~SPC7110Decomp() { delete[] decomp_buffer; } #endif